DocumentCode
1530796
Title
Fiber-optic millimeter-wave uplink system incorporating remotely fed 60-GHz-band optical pilot tone
Author
Kuri, Toshiaki ; Kitayama, Ken-ichi ; Ogawa, Yasunori
Author_Institution
Lightwave Network Section, Minist. of Posts & Telecommun., Tokyo, Japan
Volume
47
Issue
7
fYear
1999
fDate
7/1/1999 12:00:00 AM
Firstpage
1332
Lastpage
1337
Abstract
This paper proposes a fiber-optic millimeter-wave (mm-wave) uplink system incorporating a 60-GHz-band photonic downconversion technique. With this concept, neither a light source nor a MM-wave source is required at a base station (BS) since the MM-wave modulated optical pilot tone is fed from a remote central station (CS). In the BS, a high-speed MM-wave electroabsorption modulator and a subsequent optical bandpass filter are used for the photonic downconversion of the received MM-wave signal, converting the 59.6 GHz MM-wave signal into a 2.6 GHz intermediate frequency (IF) signal. The converted signal is then transmitted through the uplink fiber system to the CS with no significant chromatic dispersion effect. We successfully demonstrated not only photonic downconversion, but also 50 km long fiber-optic transmission of the downconverted 2.6 GHz IF signal with 156 Mb/s of data
Keywords
differential phase shift keying; digital communication; electro-optical modulation; electroabsorption; microwave links; microwave photonics; millimetre wave frequency convertors; optical fibre communication; 156 Mbit/s; 2.6 GHz; 50 km; 59.6 GHz; 60 GHz; IF signal; MM-wave modulated optical pilot tone; fiber-optic MM-wave uplink system; fiber-optic transmission; high-speed MM-wave electroabsorption modulator; intermediate frequency signal; millimeter-wave uplink system; optical bandpass filter; photonic downconversion technique; remote central station; remotely fed optical pilot tone; Band pass filters; Base stations; Chromatic dispersion; Frequency conversion; High speed optical techniques; Light sources; Millimeter wave technology; Optical filters; Optical frequency conversion; Optical modulation;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.775475
Filename
775475
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